Candy making machinery



March 20, 1934.

J. N. KALKANls CANDY MAKING MACHINERY Filed Sept. 28, 1931 2 Sheets-Sheet 1 INVENTOR.

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March 20, 1934.

J. N. KALKANIS CANDYMAKING MACHINERY yFiled Sept. 28, 1931 2 SheetSSheeil 2 INVENTOR.

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Patented Mar. `20, 1934 Y @UNITED STATES CANDY MAKING MACHINERY James N. Kalkanis, Detroit, Mich. y K Application September 28, 1931, Serial No. 565,573Y 9 Claims. Y(Cl. 11W-8) My invention relates to the manufacture of confectionery and the like and has particular reference to a machine for mixing the various ingredients into the desired consistency and subsequently molding the substanceV into small units ses of any desired size.

An object of my invention is to simplify the molding of candy nut bars and the like and to insure thorough mixing of the various ingredients utilized in the candy. In so doing I- have devised improvedmechanism for mixing a batch of the substance successively in two separate and fdistinct operations, providing readily manipulated means for shifting the substance from the ilrst mixing chamber into the second at such time as Vthe substance approaches the consistency which is desired for the nal molded product.

A further object of my invention is to insure a clean cut uniform molded product of any desired shape and for this purpose I have so arranged the molds that they may be regarded as a portion of the wall of the secondary mixing chamber and provided mechanism automatically operable for positively ejecting the substance` from the moldafter it has been deposited therein. This 4positive ejection means, in contradistinction to what may be regarded as a cutting away or sweeping out of the mold, insures a' uniform product with clean cut edges, a character,- istic which substantially enhances the salability and attractiveness of the iinished product.

Another important feature, which is adapted to cooperate with the positive ejection means, resides in the arrangement of the agitatingmem` bers which operate within the secondary mixing chamber. The movement of these units and that of the positive ejection members are so correlated as to further assist in securing a clean cut nished product from the mold.

Still a further object of the invention resides in the particular combination and arrangement of parts whereby the entire seriesof operations may be performed through the power provided by a single prime mover, aswell as in the'particular arrangement of the mixing chambers and the agitating units which operateto mix the in- Fig. 3 is a section along 3-3 of Fig. 2,`

' Fig. 4 is a section along 4-4 of Fig. 1, Fig. 5 is a section along 5-5 of Fig. 4. Referring now to the drawings the assembly is supported upon a standardvlO, which standard ng provides a central seating portion 12 extending' thereacross, the two side walls 14 and 16 continuing upwardly to form supporting walls between which the mixing lchambers andejecting mechanism are supported. Each of the wallstioned the primary mixing chamber 20 whichV is preferably of cylindrical form and provided` lwith an opening 22extending alongV the upper cylindrical Wall thereof. A receiving chute 24 may be formed integrally with the mixing chamber or secured .theretoin'any desired manner for the receptionof the ingredients which 'are to form the finished product.

The lower portionof the cylindrical wall of the primary mixing chamber 20 is cut away as indicated at 26 in Fig. 1 and immediately below this opening a communicating secondary mixing chamber 28which may belikewise of cylindrical shape, is positioned between the side walls 14 .and 16.V A pair of brackets 30 and 32 extend outwardly in spaced apart relation from the wall `16 and are provided with inwardly extending pins 34 andV 36 which provide a guide along which the longitudinally slotted edges of a partitioning element 38 are adapted to slide. The` partitioning member is provided with a handle 40 at its outer u extremity and is adapted to pass through an lopening formed therefor in .wall 16 between the brackets 30 and 32 to close the communicating passage between thek two mixing chambers 20 and 28. The partitioning member is positioned at its inner extremity by Vmeans ofja cut away portion 42 formed on'the inside of the wall 14, as clearlyillustrated in Fig. 2. y

It is to be noted that the upper and lower faces 44 and 46 of the partitioning member 38 are concave Vso that the member is adapted to form a portion of the cylindrical wall of boththe upper and lower mixing chambers; By reason of this concavity on each side it formsa true continuationA of the inner cylindrical surface of each chamber when positioned as indicated in Fig. 2. A plurality of agitating elements are secured or formed integrally with a shaft 48 which extends through the center of the upper mixing chamber 20 and is journalled in the walls 14 and 16. A gear wheel 50 is positioned upon theouter extremity of the shaft 48 for the purpose of rotating the latter, as will be described more clearly hereinafter.

YA similar plurality of agitating elements are l'to porting shafts.

secured to or formed integrally with another shaft 52 extending through the center of the secondary mixing chamber 28 and-journalledin the walls 14 2and* 16. One outer extremity of shaft 52 is provided with a pinion 54 whereby the said shaft and its agitating elementsare rotated. .Y

These agitating elements comprise an important feature of the invention andconstitutefa series of alined spaced apart paddle .assemblies including what may be regardedY as aV stirring handle ortion 56 positioned'on one'side 'of the` supporti g shaft and a wiping blade 58positioned at the extremity of a second stirring portion 60, which latter extends inaxial alinementwith the the stirring portion .56 onthe opposite side of its supportingshaft. The wiping blades 58are .secured tothe stirring portions 60 of the assembly Jinanysuitable manner and are adapted Vto wipe the inner walls of each of the respective mixing chambers. As clearly illustrated in Fig. 2 each alternate wiping'blade 58 is positioned upon the opposite extremity of the agitating assembly and each of the unitsis in spaced apart relation, the spacing being such that the sides of the blades Aare in alinement; In this way the entire inner surface of each `cylindrical mixing chamberV is wiped during a single full rotation .of the sup- An important feature of the agitating assembly residestin' the fact that the wiping` blades are strong 'enough to'withstand asubstantial amount of resistance in theform of whatever semi-viscous or .gooey substance is to be mixed by the agitatling assembly, while jat the sametime they are pliant to a certain extent andcapablegof flexing so that any brittle substance'which ymay bev inthe candy mixture will'not'becrumbled. In Fig.5

Y I`have illustrateda preferred form of wiper blade which comprises what may be regarded as a pocket structure 62` formed of vsome pliant material, such Vasleathery which is wrapped about a soit yielding substance 64 suchas felt or cotton and secured tothe extremityof the Astirring portions" 60 by 'means of the nut 66 extending throughtheends after being stirred in the two mixing-chambers, i

is adapted to settle. y T-hemold block '72 may be positioned in any' suitable-manner. AY plurality of plungers '78 areassociated with each ofthe mold cavities '74 and adapted toeject, atdened intervals, the agglomerate Awhich-has been deposited therein. Eachofthe Aplungers extends lthrough a guide sleeve formed in a guide block 80, -whichguide block is rpositioned between-a pair of Vsuperposed bars 82V and 84 extending between the Vextensions 18 of the walls 14' and 15. Each plunger '78 is provided with a roller 86 journalled in the bifurcatedouterextremity thereof, each of'which rollers is adapted toy cooperate with Vits respective cam element 88, which cam elements are secured at correspondingly spaced apart in.- tervalsto the shaft90 installed inthe extensions A18 ofthe frame. Thesecams maybe secured to the shafts in any desired manner, pins 92 having been illustrated for Ythis purpose.. f One extremity of the shaft 90 is provided with a pinion 494 Jwith each ofthe plungers '78 andare supported by the guide block 8O as illustrated in Figs. 4

vand 5. These guide pins are adapted to cooperate ...with a pin 100 extending laterally through each of the plungers '78. A collar 102 abuts each of the pinslOD andforms a seat for one extremity of a coil spring 104 which surrounds each of the plung- Aers'78; yThe other extremity of each coil rspring all' the movable elements of my improved ma-Vv chine. `For this purpose I .have provided a"r` V-shapedbracket 108 supported upon the outer side of Wall 14 between the arms of which is journalleda ,shaftllil This shaft isv provided with l' a Worm 1l2.in its central portion which isadapted Lto mesh with the gear wheel 50; The'outer extremity 'of shaft 110 is provided with a pulley Awheel 114 through which the shaft is driven by the motor 106. Upon the outer extremity of shaft 48, outside the wall A14, is secured a pinion Which is constrained to rotate with Athe shaft as the gear wheel 50 ,is'rotated 'Alink chain 116 connects the s aid poinion with the pinions 54 and 94 for ,thel purpose of rotating the agitating elements in the secondary mixing. chamber 28 and the actuating cams 88 which function to drive the ejection lplungers 7,8.. v

Another feature' of importance resides in the adjustment provided to regulate the sizeof the molded products. kThis is accomplished by useI rof the adjustment rods 122 having a connection by adjustable nuts 124' and 126 with guide block 80 and secured at the opposite vendto the Wallof the mold box.` The guide block -80vlr1as a slidable Aengagement at each'end betweenbars 82 and 84 so that the nuts on .the rods i22 can be adjusted to move the block toward or away from the mold box to regulate the projection of the end of 'the plunger into the lmold cavity to control the amount of candy permitted to enter the mold u cavity., By moving the'guide block toward the mold box the plungers enter .further into the mold' cavities and reduce the sizeof the mold cavities.

The operation I'of -the device will be clear from i the foregoing description. The various ingredients of which the particular confectioneryisto be formed are deposited through the chute 24 into the primary mixing chamber 20. `The partition member 38,being in position,.the motor 1 06 is started' and the v'agitating elements in the primary Ymixing .chamber function to thoroughly stir the ingredients for the purpose of'forming an agglomerate mass. After the ingredients have been stirred tothe proper yconsistency in the primary mixing chamber the 'partition 38 is removed and the agglomerate is permitted to drop through the opening formed thereby into the secondary chamber 28. Here it is subjected to a lfurther stirringaction for the purpose of more thoroughly mixing the'ingredients. The agglomerate, through the action of gravity and the movement imparted to it by the revolving agitating elements, will drop throughrthe opening '70 into the mold cavities'74. During the time the agglomerate is being discharged from the lower chamber, a second batch of ingredients is placed in the upper chamber, the partition having been reinserted, and is there mixed.

An important feature of the invention resides in the fact that the movement of the wiper blades 58 in the secondary chamber 28 is so correlated to the movement of the ejection plungers 78 that each plunger is forced outwardly to eject that portion of the agglomerato which has settled within the mold cavity at the same time that a wiper blade is passing over the said cavity. In other words, the agglomerate first forms in the mold cavity without any direct forcing action, after which the wiping biade and the plunger travel simultaneously across the opening in the mixing chamber to cut away a cleanly molded candy formation and eject it from the machine. If it were not for the simultaneous movement of the plunger and the wiper blade the agglomerate deposited in the mold cavity might tend to draw with it additional agglomerated substance as it was being ejected, or it might eject some of the agglomerate back into the mixing chamber and thereby produce candy particles of varying size. In other words, the wiper blade seals the mold cavity at the instant of ejection of the molded product so that the molded products are maintained at a uniform size.

Another feature of this invention, and one which greatly facilitates the speed of operation and the general utility of the mechanism as a whole, resides in the provision of a receiving slab 118 upon which the molded products fal upon their ejection from the mold cavities. This slab may be supported between the upright walls 14 and 16 in any suitable manner and is spaced above the central seating portion 12 of the base 10 as illustrated in Fig. 1. A continuous belt 120 is arranged to pass under the slab 118 and the operator may transfer the ejected products from the slab 118 to the supporting belt 120 as rapidly as the candy is ejected. The belt will transfer the nished product to the wrapping department or any other desired place.

Having illustrated a preferred form of my invention various modifications will be apparent to those skilled in the art and for that reason I wish to limit myself only within the scope of the appended claims.

What I claim is:

l. A candy mixing machine comprising a pair of adjacent mixing chambers, a removable par-- tition between the tWOVagitating elements operable within each of the chambers, a plurality of moid cavities associated with the wall of one of said chambers, and horizontally reciprocable means associated therewith for ejecting the candy products formed therein.

2. A candy molding machine including, in combination, a mixing chamber, spaced apart agitating elements positioned therein and including alternately opposed portions adapted to wipe the wall of said chamber, mold cavities associated with said wall and opening therethrough, and means associated with said cavities for ejecting the candy products formed therein.

3. In a candy making machine, a mixing chamber, agitating elements adapted to wipe the inner surface wall thereof, a mold block forming a portion of the wall of said mixing chamber and including a plurality of mold cavities, ejection mechanism associated with said cavities,

and means coupled with said agitator actuating means for automatically actuating said ejection means synchronously with said agitating means as each of the latter moves across a mold cavity. 4. In combination with a mixing chamber, a plurality of agitating elements positioned therein and including a wiper blade adapted to wipe the inner surface of said chamber, a plurality of mold cavities opening into the interior of said chamber, ejection means associated with each of said mold cavities, and mechanism operable through a single power source to actuate each of said ejection means respectively as one of the wiper blades passes over the mold cavity,

5. A candy making machine having a mixing chamber provided with a mold cavity directly communicating therewith to receive candy therefrom, and a wiper blade supported within the mixing chamber to wipe the entire wall thereof and arranged to pass over the communicating opening into the mold cavity.

6. A candy making Vmachine having a mixing chamber provided with a mod cavity communicating therewith through an opening in the wall of the chamber, an'ejector to eject the molded candy from the cavity, a wiper blade within the mixing chamber adapted to traverse the wall of the chamber and pass over the opening into the mold cavity, and mechanism coordinating the movement of the ejector and wiping blade so that the wiper blade passes over the opening in the cavity at the time the ejector is ejecting the molded product from the cavity.

7. Mechanism of the class described including, in combination, a cylindrical mixing chamber, a wiper blade rotatably mounted therein and arranged to wipe the inner wall thereof, a mold cavity positioned in contiguous relation to said chamber and communicating with the interior of the chamber in the path of said wiper, an ejector element slidable within said cavity, and synchronized means for actuating said ejector element and wiper blade to remove the substance deposited in the mold cavity simultaneously with the passage of the wiper thereover.

8. A Vcandy making machine comprising, in combination, a mixing chamber having a mold cavity formed in its wall, an ejector adapted to eject the molded product from said cavity, means arranged within the mixing chamber coordifnated in movement with said ejector to traverse the opening from the chamber into the mold to assist in severing the product in the mold from the product in the mixing chamber simultaneously with the movement of the ejector through the mold.

9. A candy making machine comprising, in combination, a cylindrical mixing chamber, a plurality of mold cavities formed as a part of the wall of the chamber each opening into the mixing chamber, a plurality of plungers to eject the molded product from each mold, a plurality of wiper blades arranged within the chamber adapted to traverse the opening into each mold, mechanism driving said plungers and wiper blades in coordination whereby as each plunger is driven through the moid to eject the molded product therefrom the corresponding wiper blade is caused to traverse the opening from the chamber into the mold simultaneously with the move- :i

ment of the plunger therethrough.

JAMES N. KALKANIS. 

